Page 1 of 7 NTR AS Wilfa, Industriveien 25, Postboks 146, Hagan 1481 Hagan, Norge/Norway. Split Air Conditioner

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1 Report NO.: NTR Test Report No.: Applicant Name: Test item: NTR Split Air Conditioner Page 1 of 7 AS Wilfa, Industriveien 25, Postboks 146, Hagan 1481 Hagan, Norge/Norway Identification: Trysil 6500 Gulv Serial No.: Engineering sample Receipt No.: / Date of receipt: Test specification: NO 206/2012 NO 626/2011 EN 14825:2013 EN ,2,3,4:2013 Test Result: The test items passed the test specification(s). Abbreviations: P(ass) = passed F(ail) = failed N/A = not applicable N/T =not tested This test report relates to the a. m. test sample. Without permission of the test center this test report is not permitted to be duplicated in extracts. This test report does not entitle to carry any safety mark on this or similar products. TRF No.: EN & EN 14825

2 Report NO.: NTR Page 2 of 7 Summary of testing 1. The appliance was tested according to EN The SEER and SCOP were calculated according to EN All the tests were performedon the model Trysil 6500 Gulv as representive. 4. The samples are engineering samples without serial numbers. Test item particulars... : Class of Type... : Degree of protection Supply Connection... : T1 Split Air Conditioner Indoor unit:ipx0 Outdoor unit:ip24 Type attachment Possible test case verdicts: - test case does not apply to the test object... : N/A - test object does meet the requirement... : P(Pass) - test object does not meet the requirement... : F(Fail) Testing... : Date of receipt of test item... : Date (s) of performance of tests... : General remarks This appliance is split type air conditioner, which consist of one outdoor unit and one indoor unit. Cooling and heating modes are applied by reverse cycle method. In the heating mode, defrost operation may be applied. The indoor unit is equipped with an infrared wireless battery powered remote control unit. Critical components: Model Compressor model Indoor fan motor Outdoor fan motor Trysil 6500 Gulv 1GD23AXD FN30A-ZL FW30J-ZL TRF No.: EN14511 & EN14825

3 Report NO.: NTR Page 3 of 7 Test result of part load according to EN 14825: Calculation of SEER in cooling mode: Full load (Pdesignc): 3500 W; Tdesignc: 35 Test item A Indoor DB/WB( ) Outdoor DB/WB( ) Ptest(W) Tested EER Cd 35/ ,25 B 30/ ,25 27/19 C 25/ ,25 D 20/ ,25 Psb= Poff = 3.38 W; Pck= 0 W; Pto= 5.69 W Test SEER Declared SEER Test SEER Declared SEER Pass The calculation method of SEER acoording to the clause 6 of EN14825:2013 According table 1 of NO 626/2011, the result efficency classes: A++ Calculation of SCOP in heating mode: Test item A Full load (Pdesignh): 3500 W ;Tdesignh: -10 ; Climate: Average ; Tbivalent: -7 ; TOL: -25 Indoor Outdoor DB( ) DB/WB( ) Ptest(w) Tested COP Cd -7/ ,25 B 2/ ,25 C 7/ ,25 20/- D 12/ ,25 E TOL ,25 F Tbivalent Psb= Poff = 3.38W; Pck= 0 W; Pto= 9.53 W SCOP Declared SCOP SCOP Declared SCOP Pass The calculation method of SEER acoording to the clause 7 of EN14825:2013 According table 1 of NO 626/2011, the result efficency classes: A+

4 Report NO.: NTR Page 4 of 7 Test item A Full load (Pdesignh):4800W ;Tdesignh: -22 ; Climate: Colder ; Tbivalent: -10 ; TOL: -25 Indoor Outdoor DB/WB( ) DB( ) Ptest(w) Tested COP Cd -7/ ,25 B 2/ ,25 C 7/ ,25 D 20/- 12/ ,25 E TOL ,25 F Tbivalent G -15/ Psb= Poff=3.38W; Pck= 0W; Pto=9.53W SCOP Declared SCOP 3.2 SCOP Declared SCOP Pass The calculation method of SEER acoording to the clause 7 of EN14825:2013 According table 1 of NO 626/2011, the result efficency classes: B

5 Report NO.: NTR Page 5 of 7 Appendix I: information according to clause 3 of NO 206/2012 ANNEXⅠ, for air conditioners,except single duct and double duct air conditioners Function (indicate if present) Only for heating mode, if applicable Cooling Average(mandatory) Heating Warmer(if designed) N Colder(if designed) Design load Seasonal efficiency Cooling Pdesignc 3.5 kw Cooling SEER 6.6 Heating/average Pdesignh 3.5 kw Heating/average SCOP/A 4.2 Heating/warmer Pdesignh -- kw Heating/warmer SCOP/W -- Heating/colder Pdesignh 4.8 kw Heating/colder SCOP/C 3.2 Declared capacity (*) for cooling, at indoor 27(19) C and outdoor Tj Declared energy efficiency ratio (*), at indoor 27(19) C and outdoor Tj Tj=35 Pdc 3.52 kw Tj=35 EERd 3.23 Tj=30 Pdc 2.59 kw Tj=30 EERd 5.08 Tj=25 Pdc 1.68 kw Tj=25 EERd 8.14 Tj=20 Pdc 1.15 kw Tj=20 EERd Declared capacity (*) for heating/average season, at indoor 20 C and outdoor Tj Declared coefficient of performance(*)/average season, at indoor 20 C and outdoor Tj Tj=-7 Pdh 3.11 kw Tj=-7 COPd 2.43 Tj=2 Pdh 1.91 kw Tj=2 COPd 4.20 Tj=7 Pdh 1.26 kw Tj=7 COPd 5.75 Tj=12 Pdh 0.96 kw Tj=12 COPd 7.07 Tj=operating limit Pdh 2.93 kw Pdh 3.11 kw Tj=operating limit COPd 2.38 COPd 2.43

6 Report NO.: NTR Page 6 of 7 Function (indicate if present) Only for heating mode, if applicable Cooling Average(mandatory) Heating Warmer(if designed) N Colder(if designed) Declared capacity (*) for heating/warmer season, at indoor 20 C and outdoor Tj Declared coefficient of performance(*)/warmer season, at indoor 20 C and outdoor Tj Tj=2 Pdh x,x kw Tj=2 COPd x,x Tj=7 Pdh x,x kw Tj=7 COPd x,x Tj=12 Pdh x,x kw Tj=12 COPd x,x Tj=operating limit Pdh x,x kw Tj=operating limit COPd x,x Pdh x,x kw Declared capacity (*) for heating/colder season, at indoor 20 C and outdoor Tj COPd x,x Declared coefficient of performance(*)/colder season, at indoor 20 C and outdoor Tj Tj=-7 Pdh 3.05 kw Tj=-7 COPd 2.68 Tj=2 Pdh 1.85 kw Tj=2 COPd 3.98 Tj=7 Pdh 1.13 kw Tj=7 C-OPd 5.69 Tj=12 Pdh 0.93 kw Tj=12 COPd 6.87 Tj=operating limit Pdh 2.40 kw Tj=operating limit COPd 1.85 Pdh 3.07 kw COPd Tj=-15 Pdh 2.62 kw Tj=-15 COPd 2.24 Bivalent 2.48 Operating limit Heating/Average Tbiv -7 Heating/Average Tol -25 Heating/Warmer Tbiv -- Heating/Warmer Tol -- Heating/Colder Tbiv -10 Heating/Colder Tol -25 Cycling interval capacity Cycling interval efficiency for cooling Pcycc x,x kw for cooling EERcyc x,x for heating Pcych x,x kw for heating COPcyc x,x Degradation coefficient cooling (**) Cdc x,x Degradation coefficient heating (**) Cdh x,x

7 Report NO.: NTR Page 7 of 7 Function (indicate if present) Only for heating mode, if applicable Cooling Average(mandatory) Heating Warmer(if designed) N Colder(if designed) Electric power input in power modes other than active mode Annual electricity consumption Off mode P OFF kw Cooling Q CE 185 kwh/a Standby mode Thermostatoff mode Crankcase heater mode P SB kw Heating/Average Q HE 1160 kwh/a P TO / kw Heating/Warmer Q HE -- kwh/a P CK 0 kw Heating/Colder Q HE 3138 kwh/a Capacity control (indicate one of three options) Other items fixed N Sound power level (indoor/outdoor) L WA 52/63 db(a) staged N Global warming potential GWP kgco 2 eq. variable Rated air flow (indoor/outdoor) (600/1800) m 3 /h Contact details for obtaining more information AS Wilfa, Industriveien 25, Postboks 146, Hagan 1481 Hagan, Norge/Norway (*) For staged capacity units, two values divided by a slash ( / ) will be declared in each box in the section Declared capacity of the unit and declared EER/COP of the unit. (**) If default Cd = 0,25 is chosen then (results from) cycling tests are not required. Otherwise either the heating or cooling cycling test value is required. For units with capacity control marked staged, two values for the highest and lowest, noted hi/lo divided by a slash ( / ) will be declared in each box under Declared capacity. --End of report--